amuse/lib/SoundMacroState.cpp

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#include "amuse/SoundMacroState.hpp"
#include "amuse/Voice.hpp"
#include "amuse/Engine.hpp"
#include "amuse/Common.hpp"
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#include "amuse/AudioGroup.hpp"
#include "amuse/AudioGroupPool.hpp"
#include <string.h>
#undef SendMessage
#undef GetMessage
namespace amuse
{
void SoundMacroState::Header::swapBig()
{
m_size = SBig(m_size);
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m_macroId = SBig(m_macroId);
}
void SoundMacroState::Command::swapBig()
{
uint32_t* words = reinterpret_cast<uint32_t*>(this);
words[0] = SBig(words[0]);
words[1] = SBig(words[1]);
}
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void SoundMacroState::Evaluator::addComponent(uint8_t midiCtrl, float scale,
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Combine combine, VarType varType)
{
m_comps.push_back({midiCtrl, scale, combine, varType});
}
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float SoundMacroState::Evaluator::evaluate(const Voice& vox, const SoundMacroState& st) const
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{
float value = 0.f;
/* Iterate each component */
for (auto it=m_comps.cbegin() ; it != m_comps.cend() ; ++it)
{
const Component& comp = *it;
float thisValue = 0.f;
/* Load selected data */
if (comp.m_varType == VarType::Ctrl)
{
switch (comp.m_midiCtrl)
{
case 128:
/* Pitchbend */
thisValue = vox.getPitchWheel();
break;
case 129:
/* Aftertouch */
thisValue = vox.getAftertouch();
break;
case 130:
/* LFO1 */
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if (vox.m_lfoPeriods[0])
thisValue = (std::sin(vox.m_voiceTime / vox.m_lfoPeriods[0] * 2.f * M_PIF) / 2.f + 1.f) * 127.f;
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break;
case 131:
/* LFO2 */
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if (vox.m_lfoPeriods[1])
thisValue = (std::sin(vox.m_voiceTime / vox.m_lfoPeriods[1] * 2.f * M_PIF) / 2.f + 1.f) * 127.f;
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break;
case 132:
/* Surround panning */
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thisValue = vox.m_curSpan * 64.f + 64.f;
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break;
case 133:
/* Macro-starting key */
thisValue = st.m_initKey;
break;
case 134:
/* Macro-starting velocity */
thisValue = st.m_initVel;
break;
case 135:
/* Time since macro-start (ms) */
thisValue = st.m_execTime * 1000.f;
break;
default:
thisValue = vox.getCtrlValue(comp.m_midiCtrl);
break;
}
}
else if (comp.m_varType == VarType::Var)
thisValue = st.m_variables[std::max(0, std::min(255, int(comp.m_midiCtrl)))];
/* Apply scale */
thisValue *= comp.m_scale;
/* Combine */
if (it != m_comps.cbegin())
{
switch (comp.m_combine)
{
case Combine::Add:
value += thisValue;
break;
case Combine::Mult:
value *= thisValue;
break;
default:
value = thisValue;
break;
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}
}
else
value = thisValue;
}
return value;
}
void SoundMacroState::initialize(const unsigned char* ptr, int step, bool swapData)
{
initialize(ptr, step, 1000.f, 0, 0, 0, swapData);
}
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void SoundMacroState::initialize(const unsigned char* ptr, int step, double ticksPerSec,
uint8_t midiKey, uint8_t midiVel, uint8_t midiMod, bool swapData)
{
m_ticksPerSec = ticksPerSec;
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m_initKey = midiKey;
m_initVel = midiVel;
m_initMod = midiMod;
m_curVel = midiVel;
m_curMod = midiMod;
m_curPitch = midiKey * 100;
m_pc.clear();
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m_pc.push_back({ptr, step});
m_inWait = false;
m_execTime = 0.f;
m_keyoff = false;
m_sampleEnd = false;
m_loopCountdown = -1;
m_lastPlayMacroVid = -1;
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m_useAdsrControllers = false;
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m_portamentoMode = 2;
m_portamentoTime = 0.5f;
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m_header = *reinterpret_cast<const Header*>(ptr);
if (swapData)
m_header.swapBig();
}
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bool SoundMacroState::advance(Voice& vox, double dt)
{
/* Nothing if uninitialized or finished */
if (m_pc.empty() || m_pc.back().first == nullptr || m_pc.back().second == -1)
return true;
/* Loop through as many commands as we can for this time period */
while (true)
{
/* Advance wait timer if active, returning if waiting */
if (m_inWait)
{
if (m_keyoffWait && m_keyoff)
m_inWait = false;
else if (m_sampleEndWait && m_sampleEnd)
m_inWait = false;
else if (!m_indefiniteWait)
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{
m_waitCountdown -= dt;
if (m_waitCountdown < 0.f)
m_inWait = false;
}
if (m_inWait)
{
m_execTime += dt;
return false;
}
}
/* Load next command based on counter */
const Command* commands = reinterpret_cast<const Command*>(m_pc.back().first + sizeof(Header));
Command cmd = commands[m_pc.back().second++];
if (vox.getAudioGroup().getDataFormat() != DataFormat::PC)
cmd.swapBig();
/* Perform function of command */
switch (cmd.m_op)
{
case Op::End:
case Op::Stop:
m_pc.back().second = -1;
return true;
case Op::SplitKey:
{
uint8_t keyNumber = cmd.m_data[0];
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ObjectId macroId = *reinterpret_cast<ObjectId*>(&cmd.m_data[1]);
int16_t macroStep = *reinterpret_cast<int16_t*>(&cmd.m_data[3]);
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if (m_initKey >= keyNumber)
{
/* Do Branch */
if (macroId == m_header.m_macroId)
m_pc.back().second = macroStep;
else
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vox.loadSoundObject(macroId, macroStep, m_ticksPerSec,
m_initKey, m_initVel, m_initMod);
}
break;
}
case Op::SplitVel:
{
uint8_t velocity = cmd.m_data[0];
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ObjectId macroId = *reinterpret_cast<ObjectId*>(&cmd.m_data[1]);
int16_t macroStep = *reinterpret_cast<int16_t*>(&cmd.m_data[3]);
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if (m_curVel >= velocity)
{
/* Do Branch */
if (macroId == m_header.m_macroId)
m_pc.back().second = macroStep;
else
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vox.loadSoundObject(macroId, macroStep, m_ticksPerSec,
m_initKey, m_initVel, m_initMod);
}
break;
}
case Op::WaitTicks:
{
bool keyRelease = cmd.m_data[0];
bool random = cmd.m_data[1];
bool sampleEnd = cmd.m_data[2];
bool absolute = cmd.m_data[3];
bool ms = cmd.m_data[4];
int16_t time = *reinterpret_cast<int16_t*>(&cmd.m_data[5]);
/* Set wait state */
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if (time >= 0)
{
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float q = ms ? 1000.f : m_ticksPerSec;
float secTime = time / q;
if (absolute)
{
if (secTime <= m_execTime)
break;
m_waitCountdown = secTime - m_execTime;
}
else
m_waitCountdown = secTime;
/* Randomize at the proper resolution */
if (random)
secTime = std::fmod(vox.getEngine().nextRandom() / q, secTime);
m_indefiniteWait = false;
}
else
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m_indefiniteWait = true;
m_inWait = true;
m_keyoffWait = keyRelease;
m_sampleEndWait = sampleEnd;
break;
}
case Op::Loop:
{
bool keyRelease = cmd.m_data[0];
bool random = cmd.m_data[1];
bool sampleEnd = cmd.m_data[2];
int16_t step = *reinterpret_cast<int16_t*>(&cmd.m_data[3]);
int16_t times = *reinterpret_cast<int16_t*>(&cmd.m_data[5]);
if ((keyRelease && m_keyoff) || (sampleEnd && m_sampleEnd))
{
/* Break out of loop */
m_loopCountdown = -1;
break;
}
if (random)
times = vox.getEngine().nextRandom() % times;
if (m_loopCountdown == -1 && times != -1)
m_loopCountdown = times;
if (m_loopCountdown > 0)
{
/* Loop back to step */
--m_loopCountdown;
m_pc.back().second = step;
}
else /* Break out of loop */
m_loopCountdown = -1;
break;
}
case Op::Goto:
{
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ObjectId macroId = *reinterpret_cast<ObjectId*>(&cmd.m_data[1]);
int16_t macroStep = *reinterpret_cast<int16_t*>(&cmd.m_data[3]);
/* Do Branch */
if (macroId == m_header.m_macroId)
m_pc.back().second = macroStep;
else
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vox.loadSoundObject(macroId, macroStep, m_ticksPerSec,
m_initKey, m_initVel, m_initMod);
break;
}
case Op::WaitMs:
{
bool keyRelease = cmd.m_data[0];
bool random = cmd.m_data[1];
bool sampleEnd = cmd.m_data[2];
bool absolute = cmd.m_data[3];
int16_t time = *reinterpret_cast<int16_t*>(&cmd.m_data[5]);
/* Set wait state */
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if (time >= 0)
{
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float secTime = time / 1000.f;
if (absolute)
{
if (secTime <= m_execTime)
break;
m_waitCountdown = secTime - m_execTime;
}
else
m_waitCountdown = secTime;
/* Randomize at the proper resolution */
if (random)
secTime = std::fmod(vox.getEngine().nextRandom() / 1000.f, secTime);
m_indefiniteWait = false;
}
else
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m_indefiniteWait = true;
m_inWait = true;
m_keyoffWait = keyRelease;
m_sampleEndWait = sampleEnd;
break;
}
case Op::PlayMacro:
{
int8_t addNote = cmd.m_data[0];
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ObjectId macroId = *reinterpret_cast<ObjectId*>(&cmd.m_data[1]);
int16_t macroStep = *reinterpret_cast<int16_t*>(&cmd.m_data[3]);
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//int8_t priority = cmd.m_data[5];
//int8_t maxVoices = cmd.m_data[6];
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std::shared_ptr<Voice> sibVox = vox.startChildMacro(addNote, macroId, macroStep);
if (sibVox)
m_lastPlayMacroVid = sibVox->vid();
break;
}
case Op::SendKeyOff:
{
uint8_t vid = cmd.m_data[0];
bool lastStarted = cmd.m_data[1];
if (lastStarted)
{
if (m_lastPlayMacroVid != -1)
{
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std::shared_ptr<Voice> otherVox = vox.getEngine().findVoice(m_lastPlayMacroVid);
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if (otherVox)
otherVox->keyOff();
}
}
else
{
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std::shared_ptr<Voice> otherVox = vox.getEngine().findVoice(m_variables[vid]);
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if (otherVox)
otherVox->keyOff();
}
break;
}
case Op::SplitMod:
{
uint8_t mod = cmd.m_data[0];
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ObjectId macroId = *reinterpret_cast<ObjectId*>(&cmd.m_data[1]);
int16_t macroStep = *reinterpret_cast<int16_t*>(&cmd.m_data[3]);
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if (m_curMod >= mod)
{
/* Do Branch */
if (macroId == m_header.m_macroId)
m_pc.back().second = macroStep;
else
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vox.loadSoundObject(macroId, macroStep, m_ticksPerSec,
m_initKey, m_initVel, m_initMod);
}
break;
}
case Op::PianoPan:
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{
int8_t scale = cmd.m_data[0];
int8_t cenKey = cmd.m_data[1];
int8_t cenPan = cmd.m_data[2];
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int32_t pan = int32_t(m_initKey - cenKey) * scale / 127 + cenPan;
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pan = std::max(-127, std::min(127, pan));
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vox.setPan(pan / 127.f);
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break;
}
case Op::SetAdsr:
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{
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ObjectId tableId = *reinterpret_cast<ObjectId*>(&cmd.m_data[0]);
bool dlsMode = cmd.m_data[2];
vox.setAdsr(tableId, dlsMode);
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break;
}
case Op::ScaleVolume:
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{
int8_t scale = cmd.m_data[0];
int8_t add = cmd.m_data[1];
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ObjectId curve = *reinterpret_cast<ObjectId*>(&cmd.m_data[2]);
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bool orgVel = cmd.m_data[4];
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int32_t eval = int32_t(orgVel ? m_initVel : m_curVel) * scale / 127 + add;
eval = std::max(0, std::min(127, eval));
if (curve != 0)
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{
const Curve* curveData = vox.getAudioGroup().getPool().tableAsCurves(curve);
if (curveData)
{
vox.m_curVol = (*curveData)[eval] / 127.f;
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break;
}
}
vox.m_curVol = eval / 127.f;
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break;
}
case Op::Panning:
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{
int8_t panPos = cmd.m_data[0];
int16_t timeMs = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
int8_t width = cmd.m_data[3];
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vox.startPanning(timeMs / 1000.0, panPos, width);
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break;
}
case Op::Envelope:
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{
int8_t scale = cmd.m_data[0];
int8_t add = cmd.m_data[1];
ObjectId curve = *reinterpret_cast<ObjectId*>(&cmd.m_data[2]);
bool ms = cmd.m_data[4];
int16_t fadeTime = *reinterpret_cast<int16_t*>(&cmd.m_data[5]);
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double q = ms ? 1000.0 : m_ticksPerSec;
double secTime = fadeTime / q;
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int32_t eval = int32_t(m_curVel) * scale / 127 + add;
eval = std::max(0, std::min(127, eval));
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const Curve* curveData;
if (curve != 0)
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curveData = vox.getAudioGroup().getPool().tableAsCurves(curve);
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else
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curveData = nullptr;
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vox.startEnvelope(secTime, eval, curveData);
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break;
}
case Op::StartSample:
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{
int16_t smpId = *reinterpret_cast<int16_t*>(&cmd.m_data[0]);
int8_t mode = cmd.m_data[2];
int32_t offset = *reinterpret_cast<int32_t*>(&cmd.m_data[3]);
switch (mode)
{
case 1:
offset = offset * (127 - m_curVel) / 127;
break;
case 2:
offset = offset * m_curVel / 127;
break;
default:
break;
}
vox.startSample(smpId, offset);
vox.setPitchKey(m_curPitch);
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break;
}
case Op::StopSample:
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{
vox.stopSample();
break;
}
case Op::KeyOff:
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{
vox._macroKeyOff();
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break;
}
case Op::SplitRnd:
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{
uint8_t rndVal = cmd.m_data[0];
ObjectId macroId = *reinterpret_cast<ObjectId*>(&cmd.m_data[1]);
int16_t macroStep = *reinterpret_cast<int16_t*>(&cmd.m_data[3]);
if (rndVal <= vox.getEngine().nextRandom() % 256)
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{
/* Do branch */
if (macroId == m_header.m_macroId)
m_pc.back().second = macroStep;
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else
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vox.loadSoundObject(macroId, macroStep, m_ticksPerSec,
m_initKey, m_initVel, m_initMod);
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}
break;
}
case Op::FadeIn:
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{
int8_t scale = cmd.m_data[0];
int8_t add = cmd.m_data[1];
ObjectId curve = *reinterpret_cast<ObjectId*>(&cmd.m_data[2]);
bool ms = cmd.m_data[4];
int16_t fadeTime = *reinterpret_cast<int16_t*>(&cmd.m_data[5]);
float q = ms ? 1000.f : m_ticksPerSec;
float secTime = fadeTime / q;
int32_t eval = int32_t(m_curVel) * scale / 127 + add;
eval = std::max(0, std::min(127, eval));
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const Curve* curveData;
if (curve != 0)
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curveData = vox.getAudioGroup().getPool().tableAsCurves(curve);
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else
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curveData = nullptr;
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vox.startFadeIn(secTime, eval, curveData);
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break;
}
case Op::Spanning:
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{
int8_t panPos = cmd.m_data[0];
int16_t timeMs = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
int8_t width = cmd.m_data[3];
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vox.startSpanning(timeMs / 1000.0, panPos, width);
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break;
}
case Op::SetAdsrCtrl:
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{
m_useAdsrControllers = true;
m_midiAttack = cmd.m_data[0];
m_midiDecay = cmd.m_data[1];
m_midiSustain = cmd.m_data[2];
m_midiRelease = cmd.m_data[3];
break;
}
case Op::RndNote:
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{
int32_t noteLo = int32_t(cmd.m_data[0]);
int8_t detune = cmd.m_data[1];
int32_t noteHi = int32_t(cmd.m_data[2]);
int8_t free = cmd.m_data[3];
int8_t rel = cmd.m_data[4];
if (rel)
{
noteLo = m_initKey - noteLo;
noteHi = noteLo + noteHi;
}
noteLo *= 100;
noteHi *= 100;
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if (noteHi == noteLo)
m_curPitch = noteHi;
else
m_curPitch = (vox.getEngine().nextRandom() % (noteHi - noteLo)) + noteLo;
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if (!free)
m_curPitch = m_curPitch / 100 * 100 + detune;
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vox.setPitchKey(m_curPitch);
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break;
}
case Op::AddNote:
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{
int32_t add = int32_t(cmd.m_data[0]);
int8_t detune = cmd.m_data[1];
int8_t orgKey = cmd.m_data[2];
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int8_t ms = cmd.m_data[4];
int16_t timeMs = *reinterpret_cast<int16_t*>(&cmd.m_data[5]);
m_curPitch = (orgKey ? (m_initKey * 100) : m_curPitch) + add * 100 + detune;
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/* Set wait state */
if (timeMs)
{
float q = ms ? 1000.f : m_ticksPerSec;
float secTime = timeMs / q;
m_waitCountdown = secTime;
m_inWait = true;
}
vox.setPitchKey(m_curPitch);
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break;
}
case Op::SetNote:
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{
int32_t key = int32_t(cmd.m_data[0]);
int8_t detune = cmd.m_data[1];
int8_t ms = cmd.m_data[4];
int16_t timeMs = *reinterpret_cast<int16_t*>(&cmd.m_data[5]);
m_curPitch = key * 100 + detune;
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/* Set wait state */
if (timeMs)
{
float q = ms ? 1000.f : m_ticksPerSec;
float secTime = timeMs / q;
m_waitCountdown = secTime;
m_inWait = true;
}
vox.setPitchKey(m_curPitch);
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break;
}
case Op::LastNote:
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{
int32_t add = int32_t(cmd.m_data[0]);
int8_t detune = cmd.m_data[1];
int8_t ms = cmd.m_data[4];
int16_t timeMs = *reinterpret_cast<int16_t*>(&cmd.m_data[5]);
m_curPitch = (add + vox.getLastNote()) * 100 + detune;
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/* Set wait state */
if (timeMs)
{
float q = ms ? 1000.f : m_ticksPerSec;
float secTime = timeMs / q;
m_waitCountdown = secTime;
m_inWait = true;
}
vox.setPitchKey(m_curPitch);
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break;
}
case Op::Portamento:
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{
m_portamentoMode = cmd.m_data[0];
m_portamentoType = cmd.m_data[1];
int8_t ms = cmd.m_data[4];
int16_t timeMs = *reinterpret_cast<int16_t*>(&cmd.m_data[5]);
float q = ms ? 1000.f : m_ticksPerSec;
m_portamentoTime = timeMs / q;
break;
}
case Op::Vibrato:
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{
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int32_t level = cmd.m_data[0] * 100 + cmd.m_data[1];
int32_t modLevel = cmd.m_data[2];
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int8_t ms = cmd.m_data[4];
int16_t timeMs = *reinterpret_cast<int16_t*>(&cmd.m_data[5]);
float q = ms ? 1000.f : m_ticksPerSec;
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vox.setVibrato(level, modLevel, timeMs / q);
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break;
}
case Op::PitchSweep1:
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{
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int32_t times = int32_t(cmd.m_data[0]);
int16_t add = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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int8_t ms = cmd.m_data[4];
int16_t timeMs = *reinterpret_cast<int16_t*>(&cmd.m_data[5]);
/* Set wait state */
if (timeMs)
{
float q = ms ? 1000.f : m_ticksPerSec;
float secTime = timeMs / q;
m_waitCountdown = secTime;
m_inWait = true;
}
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vox.setPitchSweep1(times, add);
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break;
}
case Op::PitchSweep2:
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{
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int32_t times = int32_t(cmd.m_data[0]);
int16_t add = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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int8_t ms = cmd.m_data[4];
int16_t timeMs = *reinterpret_cast<int16_t*>(&cmd.m_data[5]);
/* Set wait state */
if (timeMs)
{
float q = ms ? 1000.f : m_ticksPerSec;
float secTime = timeMs / q;
m_waitCountdown = secTime;
m_inWait = true;
}
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vox.setPitchSweep2(times, add);
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break;
}
case Op::SetPitch:
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{
uint32_t hz = *reinterpret_cast<uint32_t*>(&cmd.m_data[0]) >> 8;
uint16_t fine = *reinterpret_cast<uint16_t*>(&cmd.m_data[3]);
vox.setPitchFrequency(hz, fine);
break;
}
case Op::SetPitchAdsr:
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{
ObjectId adsr = *reinterpret_cast<ObjectId*>(&cmd.m_data[0]);
int8_t keys = cmd.m_data[3];
int8_t cents = cmd.m_data[4];
vox.setPitchAdsr(adsr, keys * 100 + cents);
break;
}
case Op::ScaleVolumeDLS:
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{
int16_t scale = *reinterpret_cast<int16_t*>(&cmd.m_data[0]);
bool orgVel = cmd.m_data[2];
vox.m_curVol = int32_t(orgVel ? m_initVel : m_curVel) * scale / 4096.f / 127.f;
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break;
}
case Op::Mod2Vibrange:
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{
int8_t keys = cmd.m_data[0];
int8_t cents = cmd.m_data[1];
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vox.setMod2VibratoRange(keys * 100 + cents);
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break;
}
case Op::SetupTremolo:
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{
int16_t scale = *reinterpret_cast<int16_t*>(&cmd.m_data[0]);
int16_t modScale = *reinterpret_cast<int16_t*>(&cmd.m_data[3]);
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vox.setTremolo(scale / 4096.f, modScale / 4096.f);
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break;
}
case Op::Return:
{
if (m_pc.size() > 1)
{
m_pc.pop_back();
m_header = *reinterpret_cast<const Header*>(m_pc.back().first);
if (vox.getAudioGroup().getDataFormat() != DataFormat::PC)
m_header.swapBig();
vox.m_objectId = m_header.m_macroId;
}
break;
}
case Op::GoSub:
{
ObjectId macroId = *reinterpret_cast<ObjectId*>(&cmd.m_data[1]);
int16_t macroStep = *reinterpret_cast<int16_t*>(&cmd.m_data[3]);
if (macroId == m_header.m_macroId)
m_pc.push_back({m_pc.back().first, macroStep});
else
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vox.loadSoundObject(macroId, macroStep, m_ticksPerSec,
m_initKey, m_initVel, m_initMod, true);
m_header = *reinterpret_cast<const Header*>(m_pc.back().first);
if (vox.getAudioGroup().getDataFormat() != DataFormat::PC)
m_header.swapBig();
vox.m_objectId = m_header.m_macroId;
break;
}
case Op::TrapEvent:
{
uint8_t event = cmd.m_data[0];
ObjectId macroId = *reinterpret_cast<ObjectId*>(&cmd.m_data[1]);
int16_t macroStep = *reinterpret_cast<int16_t*>(&cmd.m_data[3]);
switch (event)
{
case 0:
vox.m_keyoffTrap.macroId = macroId;
vox.m_keyoffTrap.macroStep = macroStep;
break;
case 1:
vox.m_sampleEndTrap.macroId = macroId;
vox.m_sampleEndTrap.macroStep = macroStep;
break;
case 2:
vox.m_messageTrap.macroId = macroId;
vox.m_messageTrap.macroStep = macroStep;
break;
default: break;
}
break;
}
case Op::UntrapEvent:
{
uint8_t event = cmd.m_data[0];
switch (event)
{
case 0:
vox.m_keyoffTrap.macroId = 0xffff;
vox.m_keyoffTrap.macroStep = -1;
break;
case 1:
vox.m_sampleEndTrap.macroId = 0xffff;
vox.m_sampleEndTrap.macroStep = -1;
break;
case 2:
vox.m_messageTrap.macroId = 0xffff;
vox.m_messageTrap.macroStep = -1;
break;
default: break;
}
break;
}
case Op::SendMessage:
{
bool isVar = cmd.m_data[0];
ObjectId macroId = *reinterpret_cast<ObjectId*>(&cmd.m_data[1]);
uint8_t vid = cmd.m_data[3];
uint8_t val = cmd.m_data[4];
if (isVar)
{
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std::shared_ptr<Voice> findVox = vox.getEngine().findVoice(m_variables[vid]);
if (findVox)
findVox->message(val);
}
else
vox.getEngine().sendMacroMessage(macroId, val);
break;
}
case Op::GetMessage:
{
uint8_t vid = cmd.m_data[0];
if (vox.m_messageQueue.size())
{
m_variables[vid] = vox.m_messageQueue.front();
vox.m_messageQueue.pop_front();
}
else
m_variables[vid] = 0;
break;
}
case Op::GetVid:
{
uint8_t vid = cmd.m_data[0];
bool lastPlayMacro = cmd.m_data[1];
m_variables[vid] = lastPlayMacro ? m_lastPlayMacroVid : vox.vid();
break;
}
case Op::SendFlag:
{
int8_t id = cmd.m_data[0];
int8_t val = cmd.m_data[1];
break; /* TODO: figure out a good API */
}
case Op::PitchWheelR:
{
int8_t up = cmd.m_data[0];
int8_t down = cmd.m_data[1];
vox.setPitchWheelRange(up, down);
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break;
}
case Op::VolSelect:
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{
uint8_t ctrl = cmd.m_data[0];
int16_t perc = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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Evaluator::Combine combine = Evaluator::Combine(cmd.m_data[3]);
Evaluator::VarType vtype = Evaluator::VarType(cmd.m_data[4]);
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uint8_t fine = cmd.m_data[5];
m_volumeSel.addComponent(ctrl, (perc + fine / 100.f) / 100.f, combine, vtype);
break;
}
case Op::PanSelect:
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{
uint8_t ctrl = cmd.m_data[0];
int16_t perc = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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Evaluator::Combine combine = Evaluator::Combine(cmd.m_data[3]);
Evaluator::VarType vtype = Evaluator::VarType(cmd.m_data[4]);
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uint8_t fine = cmd.m_data[5];
m_panSel.addComponent(ctrl, (perc + fine / 100.f) / 100.f, combine, vtype);
break;
}
case Op::PitchWheelSelect:
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{
uint8_t ctrl = cmd.m_data[0];
int16_t perc = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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Evaluator::Combine combine = Evaluator::Combine(cmd.m_data[3]);
Evaluator::VarType vtype = Evaluator::VarType(cmd.m_data[4]);
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uint8_t fine = cmd.m_data[5];
m_pitchWheelSel.addComponent(ctrl, (perc + fine / 100.f) / 100.f, combine, vtype);
break;
}
case Op::ModWheelSelect:
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{
uint8_t ctrl = cmd.m_data[0];
int16_t perc = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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Evaluator::Combine combine = Evaluator::Combine(cmd.m_data[3]);
Evaluator::VarType vtype = Evaluator::VarType(cmd.m_data[4]);
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uint8_t fine = cmd.m_data[5];
m_modWheelSel.addComponent(ctrl, (perc + fine / 100.f) / 100.f, combine, vtype);
break;
}
case Op::PedalSelect:
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{
uint8_t ctrl = cmd.m_data[0];
int16_t perc = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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Evaluator::Combine combine = Evaluator::Combine(cmd.m_data[3]);
Evaluator::VarType vtype = Evaluator::VarType(cmd.m_data[4]);
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uint8_t fine = cmd.m_data[5];
m_pedalSel.addComponent(ctrl, (perc + fine / 100.f) / 100.f, combine, vtype);
break;
}
case Op::PortamentoSelect:
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{
uint8_t ctrl = cmd.m_data[0];
int16_t perc = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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Evaluator::Combine combine = Evaluator::Combine(cmd.m_data[3]);
Evaluator::VarType vtype = Evaluator::VarType(cmd.m_data[4]);
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uint8_t fine = cmd.m_data[5];
m_portamentoSel.addComponent(ctrl, (perc + fine / 100.f) / 100.f, combine, vtype);
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break;
}
case Op::ReverbSelect:
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{
uint8_t ctrl = cmd.m_data[0];
int16_t perc = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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Evaluator::Combine combine = Evaluator::Combine(cmd.m_data[3]);
Evaluator::VarType vtype = Evaluator::VarType(cmd.m_data[4]);
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uint8_t fine = cmd.m_data[5];
m_reverbSel.addComponent(ctrl, (perc + fine / 100.f) / 100.f, combine, vtype);
break;
}
case Op::SpanSelect:
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{
uint8_t ctrl = cmd.m_data[0];
int16_t perc = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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Evaluator::Combine combine = Evaluator::Combine(cmd.m_data[3]);
Evaluator::VarType vtype = Evaluator::VarType(cmd.m_data[4]);
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uint8_t fine = cmd.m_data[5];
m_spanSel.addComponent(ctrl, (perc + fine / 100.f) / 100.f, combine, vtype);
break;
}
case Op::DopplerSelect:
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{
uint8_t ctrl = cmd.m_data[0];
int16_t perc = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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Evaluator::Combine combine = Evaluator::Combine(cmd.m_data[3]);
Evaluator::VarType vtype = Evaluator::VarType(cmd.m_data[4]);
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uint8_t fine = cmd.m_data[5];
m_dopplerSel.addComponent(ctrl, (perc + fine / 100.f) / 100.f, combine, vtype);
break;
}
case Op::TremoloSelect:
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{
uint8_t ctrl = cmd.m_data[0];
int16_t perc = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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Evaluator::Combine combine = Evaluator::Combine(cmd.m_data[3]);
Evaluator::VarType vtype = Evaluator::VarType(cmd.m_data[4]);
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uint8_t fine = cmd.m_data[5];
m_tremoloSel.addComponent(ctrl, (perc + fine / 100.f) / 100.f, combine, vtype);
break;
}
case Op::PreASelect:
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{
uint8_t ctrl = cmd.m_data[0];
int16_t perc = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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Evaluator::Combine combine = Evaluator::Combine(cmd.m_data[3]);
Evaluator::VarType vtype = Evaluator::VarType(cmd.m_data[4]);
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uint8_t fine = cmd.m_data[5];
m_preAuxASel.addComponent(ctrl, (perc + fine / 100.f) / 100.f, combine, vtype);
break;
}
case Op::PreBSelect:
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{
uint8_t ctrl = cmd.m_data[0];
int16_t perc = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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Evaluator::Combine combine = Evaluator::Combine(cmd.m_data[3]);
Evaluator::VarType vtype = Evaluator::VarType(cmd.m_data[4]);
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uint8_t fine = cmd.m_data[5];
m_preAuxBSel.addComponent(ctrl, (perc + fine / 100.f) / 100.f, combine, vtype);
break;
}
case Op::PostBSelect:
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{
uint8_t ctrl = cmd.m_data[0];
int16_t perc = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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Evaluator::Combine combine = Evaluator::Combine(cmd.m_data[3]);
Evaluator::VarType vtype = Evaluator::VarType(cmd.m_data[4]);
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uint8_t fine = cmd.m_data[5];
m_postAuxB.addComponent(ctrl, (perc + fine / 100.f) / 100.f, combine, vtype);
break;
}
case Op::AuxAFXSelect:
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{
uint8_t ctrl = cmd.m_data[0];
int16_t perc = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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Evaluator::Combine combine = Evaluator::Combine(cmd.m_data[3]);
Evaluator::VarType vtype = Evaluator::VarType(cmd.m_data[4]);
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uint8_t fine = cmd.m_data[5];
m_auxAFxSel.addComponent(ctrl, (perc + fine / 100.f) / 100.f, combine, vtype);
break;
}
case Op::AuxBFXSelect:
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{
uint8_t ctrl = cmd.m_data[0];
int16_t perc = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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Evaluator::Combine combine = Evaluator::Combine(cmd.m_data[3]);
Evaluator::VarType vtype = Evaluator::VarType(cmd.m_data[4]);
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uint8_t fine = cmd.m_data[5];
m_auxBFxSel.addComponent(ctrl, (perc + fine / 100.f) / 100.f, combine, vtype);
break;
}
case Op::SetupLFO:
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{
uint8_t number = cmd.m_data[0];
int16_t period = *reinterpret_cast<int16_t*>(&cmd.m_data[1]);
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if (number == 0)
vox.setLFO1Period(period / 1000.f);
else if (number == 1)
vox.setLFO2Period(period / 1000.f);
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break;
}
case Op::SetKeygroup:
{
uint8_t id = cmd.m_data[0];
uint8_t flag = cmd.m_data[1];
vox.setKeygroup(0);
if (id)
{
vox.getEngine().killKeygroup(id, flag);
vox.setKeygroup(id);
}
break;
}
case Op::AddVars:
{
bool aCtrl = cmd.m_data[0];
int8_t a = cmd.m_data[1];
bool bCtrl = cmd.m_data[2];
int8_t b = cmd.m_data[3];
bool cCtrl = cmd.m_data[4];
int8_t c = cmd.m_data[5];
if (bCtrl)
b = vox.getCtrlValue(b);
else
b = m_variables[b];
if (cCtrl)
c = vox.getCtrlValue(c);
else
c = m_variables[c];
if (aCtrl)
vox.setCtrlValue(a, b + c);
else
m_variables[a] = b + c;
break;
}
case Op::SubVars:
{
bool aCtrl = cmd.m_data[0];
int8_t a = cmd.m_data[1];
bool bCtrl = cmd.m_data[2];
int8_t b = cmd.m_data[3];
bool cCtrl = cmd.m_data[4];
int8_t c = cmd.m_data[5];
if (bCtrl)
b = vox.getCtrlValue(b);
else
b = m_variables[b];
if (cCtrl)
c = vox.getCtrlValue(c);
else
c = m_variables[c];
if (aCtrl)
vox.setCtrlValue(a, b - c);
else
m_variables[a] = b - c;
break;
}
case Op::MulVars:
{
bool aCtrl = cmd.m_data[0];
int8_t a = cmd.m_data[1];
bool bCtrl = cmd.m_data[2];
int8_t b = cmd.m_data[3];
bool cCtrl = cmd.m_data[4];
int8_t c = cmd.m_data[5];
if (bCtrl)
b = vox.getCtrlValue(b);
else
b = m_variables[b];
if (cCtrl)
c = vox.getCtrlValue(c);
else
c = m_variables[c];
if (aCtrl)
vox.setCtrlValue(a, b * c);
else
m_variables[a] = b * c;
break;
}
case Op::DivVars:
{
bool aCtrl = cmd.m_data[0];
int8_t a = cmd.m_data[1];
bool bCtrl = cmd.m_data[2];
int8_t b = cmd.m_data[3];
bool cCtrl = cmd.m_data[4];
int8_t c = cmd.m_data[5];
if (bCtrl)
b = vox.getCtrlValue(b);
else
b = m_variables[b];
if (cCtrl)
c = vox.getCtrlValue(c);
else
c = m_variables[c];
if (aCtrl)
vox.setCtrlValue(a, b / c);
else
m_variables[a] = b / c;
break;
}
case Op::AddIVars:
{
bool aCtrl = cmd.m_data[0];
int8_t a = cmd.m_data[1];
bool bCtrl = cmd.m_data[2];
int8_t b = cmd.m_data[3];
int16_t imm = *reinterpret_cast<int16_t*>(&cmd.m_data[4]);
if (bCtrl)
b = vox.getCtrlValue(b);
else
b = m_variables[b];
if (aCtrl)
vox.setCtrlValue(a, b + imm);
else
m_variables[a] = b + imm;
break;
}
case Op::IfEqual:
{
bool aCtrl = cmd.m_data[0];
int8_t a = cmd.m_data[1];
bool bCtrl = cmd.m_data[2];
int8_t b = cmd.m_data[3];
bool lnot = cmd.m_data[4];
int16_t macroStep = *reinterpret_cast<int16_t*>(&cmd.m_data[5]);
if (aCtrl)
a = vox.getCtrlValue(a);
else
a = m_variables[a];
if (bCtrl)
b = vox.getCtrlValue(b);
else
b = m_variables[b];
if ((a == b) ^ lnot)
m_pc.back().second = macroStep;
break;
}
case Op::IfLess:
{
bool aCtrl = cmd.m_data[0];
int8_t a = cmd.m_data[1];
bool bCtrl = cmd.m_data[2];
int8_t b = cmd.m_data[3];
bool lnot = cmd.m_data[4];
int16_t macroStep = *reinterpret_cast<int16_t*>(&cmd.m_data[5]);
if (aCtrl)
a = vox.getCtrlValue(a);
else
a = m_variables[a];
if (bCtrl)
b = vox.getCtrlValue(b);
else
b = m_variables[b];
if ((a < b) ^ lnot)
m_pc.back().second = macroStep;
break;
}
default:
break;
}
}
m_execTime += dt;
return false;
}
void SoundMacroState::keyoffNotify(Voice& vox)
{
m_keyoff = true;
}
void SoundMacroState::sampleEndNotify(Voice& vox)
{
m_sampleEnd = true;
}
}